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Maxwell GeigerFollow

Description

Chaos is a type of motion found in mathematical systems that is highly sensitive to initial conditions. While many biological systems described in literature have been analyzed for the presence of chaotic dynamics, there are still many that are yet to be discovered. The goal of this project is to reassess Itik and Banks’ discovery of chaotic behavior in their population dynamics model of cancer growth. Once chaotic behavior is confirmed, we want to investigate how chaos could possibly be controlled to minimize tumor growth and discover novel treatments for cancer patients.

Disciplines

Biological Phenomena, Cell Phenomena, and Immunity | Clinical Trials | Health and Medical Administration | Health and Physical Education | Health Services Research | Medical Education | Medical Sciences | Medicine and Health Sciences | Nursing | Primary Care | Scholarship of Teaching and Learning | Teacher Education and Professional Development

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Investigating the Role of Chaos in Minimizing Tumor Growth

Chaos is a type of motion found in mathematical systems that is highly sensitive to initial conditions. While many biological systems described in literature have been analyzed for the presence of chaotic dynamics, there are still many that are yet to be discovered. The goal of this project is to reassess Itik and Banks’ discovery of chaotic behavior in their population dynamics model of cancer growth. Once chaotic behavior is confirmed, we want to investigate how chaos could possibly be controlled to minimize tumor growth and discover novel treatments for cancer patients.